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Hauptverfasser: Chu, Chong-Sun, Gonzalez, Ignacio Garrido, Parihar, Himanshu
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2409.06667
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author Chu, Chong-Sun
Gonzalez, Ignacio Garrido
Parihar, Himanshu
author_facet Chu, Chong-Sun
Gonzalez, Ignacio Garrido
Parihar, Himanshu
contents We propose a holographic duality for the boundary Lifshitz field theory (BLFT). Similar to holographic BCFT, holographic BLFT can be consistently defined by imposing either a Neumann boundary condition (NBC) or a conformal boundary condition (CBC) on the end of the world (EOW) brane. We propose $g$-functions and derive $g$-theorem for these two types of holographic BLFT. On the field theory side, we consider BLFT whose path integral is prescribed to include also paths bouncing off the boundary. The entanglement entropy for an interval for the Lifshitz invariant ground state is computed in the saddle point approximation, and is found to agree precisely with the holographic result in both limits when the interval is very close or very far away from the boundary.
format Preprint
id arxiv_https___arxiv_org_abs_2409_06667
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Holography for Boundary Lifshitz Field Theory
Chu, Chong-Sun
Gonzalez, Ignacio Garrido
Parihar, Himanshu
High Energy Physics - Theory
We propose a holographic duality for the boundary Lifshitz field theory (BLFT). Similar to holographic BCFT, holographic BLFT can be consistently defined by imposing either a Neumann boundary condition (NBC) or a conformal boundary condition (CBC) on the end of the world (EOW) brane. We propose $g$-functions and derive $g$-theorem for these two types of holographic BLFT. On the field theory side, we consider BLFT whose path integral is prescribed to include also paths bouncing off the boundary. The entanglement entropy for an interval for the Lifshitz invariant ground state is computed in the saddle point approximation, and is found to agree precisely with the holographic result in both limits when the interval is very close or very far away from the boundary.
title Holography for Boundary Lifshitz Field Theory
topic High Energy Physics - Theory
url https://arxiv.org/abs/2409.06667